The influence of air pollution on skin microbiome: a link to skin barrier dysfunction

IF 1.8 4区 医学 Q3 DERMATOLOGY Archives of Dermatological Research Pub Date : 2024-10-26 DOI:10.1007/s00403-024-03448-5
Suphagan Boonpethkaew, Sasin Charoensuksira, Jitlada Meephansan, Punyaphat Sirithanabadeekul, Chutinan Chueachavalit, Patlada Ingkaninanda, Suthida Visedthorn, Prangwalai Chanchaem, Pavaret Sivapornnukul, Sunchai Payungporn
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Abstract

An equilibrium of skin microbiome is crucial for maintaining skin barrier function. However, external factors such as air pollution have the potential to disrupt this equilibrium. Hence, further investigation into the influence of air pollution on the skin microbiome emerges as a critical imperative. Healthy women matched for age from two different ambient air cities in Thailand: Bangkok, characterized by highly polluted air (HPA) (n = 33), and Songkhla, characterized by less polluted air (LPA) (n = 33) were recruited. Skin barrier physiological parameters were measured on the forehead skin. Microbiome samples were collected via the scraping and swabbing technique from the forehead skin and analyzed for microbiome profiles using amplicon sequencing. We found that the abundant microbiome at the phylum level was comparable between HPA- and LPA-exposed skin. However, microbiome diversity was decreased at genus level of fungus and species level of bacteria on HPA-exposed skin. Interestingly, some relatively higher enriched microbiome correlated with skin barrier physiological parameters. Specifically, a higher enrichment of Streptococcus parasanguinis on LPA-exposed skin correlated with both lower skin pH and higher stratum corneum (SC) hydration. Conversely, a higher enrichment of Malassezia spp. and Aureobasidum spp. on HPA-exposed skin was correlated with increased transepidermal water loss and decreased SC hydration, respectively. In conclusion, air pollution potentially affects the skin microbiome by reducing its diversity, disrupting its beneficial correlations with barrier physiology, and promoting the overgrowth of pathogenic microbiome, resulting in decreased hydration and increased pH levels. These factors could ultimately lead to skin barrier dysfunction.

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空气污染对皮肤微生物群的影响:与皮肤屏障功能障碍有关。
皮肤微生物群的平衡对维持皮肤屏障功能至关重要。然而,空气污染等外部因素有可能破坏这种平衡。因此,进一步研究空气污染对皮肤微生物组的影响势在必行。研究人员对来自泰国两个不同环境空气城市的健康女性进行了年龄匹配:她们分别来自空气污染严重(HPA)的曼谷(33 人)和空气污染较轻(LPA)的宋卡(33 人)。在前额皮肤上测量皮肤屏障生理参数。通过刮拭技术从前额皮肤收集微生物组样本,并使用扩增子测序法分析微生物组特征。我们发现,暴露于 HPA 和 LPA 的皮肤在门一级的丰富微生物组具有可比性。然而,暴露于 HPA 的皮肤上真菌属级和细菌种级的微生物组多样性有所降低。有趣的是,一些富集度相对较高的微生物组与皮肤屏障生理参数相关。具体来说,在暴露于 LPA 的皮肤上,较高的寄生链球菌富集度与较低的皮肤 pH 值和较高的角质层(SC)水合度相关。相反,在暴露于 HPA 的皮肤上,马拉色菌属(Malassezia spp.总之,空气污染可能会通过减少皮肤微生物群的多样性、破坏其与屏障生理的有益相关性以及促进致病微生物群的过度生长来影响皮肤微生物群,从而导致水合作用降低和 pH 值升高。这些因素最终会导致皮肤屏障功能失调。
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来源期刊
CiteScore
4.10
自引率
3.30%
发文量
30
审稿时长
4-8 weeks
期刊介绍: Archives of Dermatological Research is a highly rated international journal that publishes original contributions in the field of experimental dermatology, including papers on biochemistry, morphology and immunology of the skin. The journal is among the few not related to dermatological associations or belonging to respective societies which guarantees complete independence. This English-language journal also offers a platform for review articles in areas of interest for dermatologists and for publication of innovative clinical trials.
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